Iranian Journal of Basic Medical Sciences Comparison of the Liver Function and Hepatic Specific Genes Expression in Cultured Mesenchymal Stem Cells and Hepatocytes

Objective(s): Stem cell therapy is believed to be as a promising treatment strategy for tissue repair and regeneration. The plasticity specification of the adult stem cells, such as MSCs, has enabled that these cells to be used in the treatment of a broad spectrum of diseases like liver disorders. In this study, the production of urea and Albumin (Alb), glycogen storage, and expression of some liver genes including α-fetoprotein (AFP), Alb, cytokeratin18 (CK18) and cytokeratin19 (CK19) was compared between mesenchymal stem cells (MSCs) and isolated rat hepatocytes. Materials and Methods: The MSCs were isolated from rat femurs and tibias and cultured in α-MEM, DMEM and RPMI mediums supplemented with serum. Hepatocytes were isolated from Rat livers and cultured in DMEM with serum. The expression of AFP, Alb, CK18, and CK19 genes was evaluated using the reverse transcription-polymerase chain reaction (RT-PCR). Furthermore, the synthesis of albumin and urea of the cells was measured. Results: In vitro conditions, MSCs and hepatocytes exhibited the characteristic functions of the liver such as capacity to synthesize Alb, urea, the storage of glycogen. In this study, the expression of some liver genes such as AFP, Alb, CK18 and CK19 at mRNA levels was also shown. Conclusion: The results showed that MSCs exhibited some liver functions, and may be considered as an alternative source for adult stem cell transplantation in liver repair due to the excellent proliferation and differentiation capacities. Comparison of the liver function and hepatic specific genes expression in cultured mesenchymal stem cells and hepatocytes.


ing treatment
strategy for tissue repair and regeneration.The plasticity specification of the adult stem cells, such as MSCs, has enabled that these cells to be used in the treatment of a broad spectrum of diseases like liver disorders.In this study, the production of urea and Albumin (Alb), glycogen storage, and expression of some liver genes including α-fetoprotein (AFP), Alb, cytokeratin18 (CK18) and cytokeratin19 (CK19) was compared between mesenchymal stem cells (MSCs) and isolated rat hepatocytes.Materials and Methods:The MSCs were isolated from rat femurs and tibias and cultured in α-MEM, DMEM and RPMI mediums supplemented with serum.Hepatocytes were isolated from Rat livers and cultured in DMEM with serum.The expression of AFP, Alb, CK18, and CK19 genes was evaluated using the reverse transcription-polymerase chain reaction (RT-PCR).Furthermore, the synthesis of albumin and urea of the cells was measured.Results: In vitro conditions, MSCs and hepatocytes exhibited the characteristic functions of the liver such as capacity to synthesize Alb, urea, the storage of glycogen.In this study, the expression of some liver genes such as AFP, Alb, CK18 and CK19 at mRNA levels was also shown.Conclusion:The results showed that MSCs exhibited some liver functions, and may be considered as an alternative source for adult stem cell transplantation in liver repair due to the excellent proliferation and differentiation capacities.

Introduction

The increase of liver failure as a high risk disease, shortage of liver donors and the problems associated with liver transplantation have made researchers suggest stem cell-based therapies as a supplementary treatment to stem cell transplantation for this disease (1).Stem cells are known by their origin tissues, which include embryonic stem cells (ESCs) and adult stem cells."Oval cells" are one population of adult stem cells that resides in terminal branches of the intrahepatic biliary tree.In addition to oval cells, stem cells in other organs such as mesenchymal stem cells (MSCs) and hematopoietic stem cells (HSCs) of bone marrow play a pivotal role in regeneration (2,3).In reality, the application of stem cells derived from different sources and their differentiation to liver cells in laboratory or application of non-induced cells with the normal condition have been the most important cell sources in the regenerative medicine (4)(5)(6)(7).A subpopulation of MSC isolated from bone marrow of human, mouse and rat, express hepatic markers such as CK19, α-fetoprotein, albumin and CK18 (8).MSCs showed differentiation potentials into hepatocytes when co-cult

lls (8,9
.This procedure suggests that bone marrow cells contribute to the normal renewal and regeneration of the liver tissue.In vivo conditions, interactions between adjacent parenchymal and non-parenchymal cells in the liver regeneration process cause the regulation and modulation of growth, migration and differentiation of the hepatocyte progenitor cells.In fact, created regulatory factors a

molecular signals of cytokine
induce the MSCs differentiate to the liver cells, depending on their microenvironment (10).Regenerative medicine employs stem cells to overcome the shortage of donors, operative damage, and organ rejection (8).MSCs possess the abilities of hepatic engraftment, and in addition, their easy accessibility and quick in vitro expansion make MSC an ideal resource for the clinical use (11).In this research differentiation potential of MSCs into hepatocytes in α-MEM, RPMI and DMEM mediums was studied to see the influence of culture media on cell growth and differentiation.Hepatic-differentiated cells are characterized by the expression of hepatocyte specific genes (8).Accordingly, in this study some characteristic functions of liver cells including the capacity to synthesize albumin, urea, and the storage of glycogen were reported.Moreover, the expressions of some hepatocyte specific genes such as AFP, Alb, CK18 and CK19 in the

Cs and hepatocytes were investigated.
Materials and Methods


Animals

Experiments were performed in accordance with the recommendations and approval of the Ethics Committee on Animal Experiments of Damghan University.Male Wistar rats, aged 6-8 weeks were used.The animals were housed in stainless steel cages with free access to standard chow and water and exposed to 12 hr light-dark cycles under standard animal laboratory conditions at room temperature.


Isolation and culture of MSCs

The animals were sacrificed using chloroform anesthesia.Rat MSCs were obtained from the bone marrow of femurs and tibias using the method of Azizi et al (12).The cells were cultured in Alfa-Dulbecco's minimal essential medium (α

EM), Dulbecco's modified Eagle's medium (DMEM) and RPMI 1640 (Gibco) suppleme
ted with 10% fetal bovine serum (FBS) (Gibco), 1% penicillin and streptomycin (Gibco).The cells were seeded in 25 cm 2 tissue culture flasks )Falcon) and incubated at 37°C and 5% CO2.After 48 hr non-adherent cells were removed by replacing the medium.After the cultures reached the optimum confluence, cells were lifted by incubation with 0.25% trypsin and 0.02% EDTA (Merck) at 37°C for 3-4 min and the subculture of the cells were re-plated at a density of 4×10 5 cells/cm 2 .Cell density (cell count) and cell viability were determined using a Neubauer hemocytometer as explained by Davis JM (13) and MTT assay (14).


Isolation

d culture of hepatoc
tes

After a complete anesthesia, liver tissue samples were harvested and rinsed with phosphate-buffered saline (PBS).Sections were then placed in microtubes (1.5 ml) with collagenase solution (0.2%) and incubated for 40 min at 37°C.Resulting cell clumps were dissociated by gentle pipetting and the effect of the collagenase solution was neutralized with medium supplemented by the serum (1 ml).The cell suspension was filtered through a 200 μM pore size nylon mesh and centrifuged at 400 g for 5 min.The supernatant was removed and the cell pellets were resuspended in DMEM D-glucose (1 ml) supplemented with 10% fetal bovine serum (FBS) and placed in falcon tissue culture dishes.


MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl-2H-tetrazolium bromide] assay

Cell viability and proliferation rate were detected by MTT assay (14).Briefly, 2×10 4 cells at passage 3 or 4 per well were seeded in 96-well plates, and incubated in 200

l α-MEM
supplemented with 10% FBS.After 48 hr, the supernatant was discarded and replaced with 100 µl medium supplemented with 10 µl MTT solutions (5 mg/ml, Sigma) and incubated for 4 hr at room temperature.Then, 85 µl of supernatant was discarded, afterward 50 µl DMSO added and incubated for 10 min, after different time intervals, absorbance value was measured in ELISA reader (Biotek) at 540 nm.The experiment was repeated over 5 times for each group.


Immunocytochemistry

After 3 or 4 pssages immunocytochemical testing was performed to confirm the MSC lineage.Briefly, the cells cultured at a density of 5×10 4 cells/cm 2 on gelatin coated cover slips in culture dishes were exposed to (1:20) mouse monoclonal anti-human CD71, (Sigma, C2063) and (1:20) CD90 antibodies mouse (Miltenyi Biotec, 130094524).Samples were fixed with 4% paraformaldehyde for 20 minutes.The cells were then treated with 0.3% Triton X-100 for 15 min and 10% goat serum at room temperature for 15 min.Next, the cells were incubated overnight at 4°C and humid conditions to the primary antibodies included CD71 and CD90.FITC conjugated anti-rat secondary antibody (1:100) (Sigma, F6258) was then added and the cells were incubated in the dark.The slides were examined by florescence microscopy (Nikon Eclipse-E600) and the images of cells were taken with a digital camera (Nikon Digital Camera, 1200 DXM).The positive cells


RT-PCR

Total RNA was extracted from the cultured cells (3 or 4 th passages) and rat liver tissue as the positive control using the Cinnagen-kit.Standard revers

5 μl of polymerase (A
pli-Taq, Cinnagen).The sequence of primers, size and accession number of fragments in the gene bank are listed in Table 1.The PCR was carried out in a thermal cycler (Eppendorf, Germany) with the following cycle profile: initial denaturation at 94°C for 2 min, and 34 cycles of 94°C

r 30 sec
annealing at 64°C for 30 sec, elongation at 72°C for 30 sec, and final extension at 72°C for 5 min.Gene expression was assessed in different cycles.No band was observed below 25 cycles.All reactions were performed in triplicate and controlled by negative RT (no enzyme) and no-template controls.The expression of genes was determined in rat liver tissue as the positive control.Products of PCR were analyzed with 2% agarose gels and ethidium bromide staining.Fragment sizes were calculated by application of the DNA ladder.All PCR reactions were normalized to β2M as an internal control to measure the genes expression intensity.The expression intensity of the genes was measured using the UVIdoc software (densiometer) and compared with β2M.


Biochemical analysis

Urea concentration and albumin level were determined using commercial kits (parsazmoon) in three culture medium supernatants of MSCs and hepatocytes.Periodic acid-Schiff (PAS) staining technique was used for the demonstration of glycogen storage (15).All assays were performed 5-7 times for each condition.


Statistical analysis

The comparison between diverse groups was performed by one-way analysis of variance (ANOVA) with Tukey's and LSD complementary test employing "SPSS" software (version 16) with a significance level set at P≤ 0.05.The resultant data are presented as the mean standard deviation (SD).


Results

In the first days of culture, the MSCs grew as a colony-forming unit before reaching to the confluence and subculture of cells.These clonal cells aggregation represented as a spherical structure were observed before reaching to high confluence (Figure 1).The MSCs showed three morphologies in cell culture.The colonies contain small spheri al shape cells that rapidly develop a greater number of cell populations in primary cultures.One group of the cells had a spindle shape or fibroblast-like morphology (16) and the other group exhibited a large broadened cuboidal shape (Figure 1).The comparison between culture medium showed that the MSCs had the best conditions based on the cell morphology, growth and the replication rate in α-MEM medium.The MSCs in the α-MEM medium showed a high growth speed measured by hemocytometer method and MTT assay (data not shown).Apart from he α-MEM, among the three mediums, the MSCs had improved conditions in the RPMI medium compared with the DMEM medium.After 1 or 2 cellular passages, the spindle and fibroblast-like morphology of the cultured cells changed into the flat shape in the DMEM medium.In the DMEM medium, the passage of cells took a longer time in comparison to others.In the higher passages, the cells were observed with a broad and cuboidal form and short processes in three mediums.During the first days of culture, hepatocytes exhibited t e colonial growth and aggregation, forming large clusters such as the MSCs primary culture.Hepatocytes grew slowly as compared to the MSCs and were observed in a big size with one or two central light large round nucleus and prominent nucleolus (Figure 1A).Liver hepatocytes progressed to the 4 th passages in culture.

The positive reaction of MSCs for CD71 and CD90 markers were compared in three mediums.The resultant data are expressed as means ± standard error of the mean such as follows: Immunocytochemistry staining using a

ibody to CD
1 in the α-MEM medium: (92/2 ± 1/39), in the DMEM medium: (91/4 ± 1/16), in the RPMI medium: (92 ± 1/48), also for the CD90 marker: (94/2 ± 0/8), (92/4 ± 0/81), (93/6 ± 0/74) respectively (Figure 2).The results showed that the cells extracted from the bone marrow can express the sur ace markers of the MSCs.

The glycogen storage was observed in mesenchymal and liver cells by the periodic acid-Schiff staining (PAS).The comparison between culture medium showed that the hepatocytes had the highest reaction with PAS (Figure 3).The measurement of albumin secretion in the supernatants did not have statistically significant differences under various conditions (Figure 3E).The assessment of urea concentrations showed that there was signifycant difference between hepatocytes and the MSCs in the DMEM medium (Figure 3F).

The quantitative and qualitative analysis of RNA in all groups indicated a normal RNA with healthy 18S and 28S bands (Figure 4).The PCR products of the MSCs in the α-MEM, DMEM, RPMI mediums, hepatocytes and liver tissue (as the positive control) were resolved by electrophoresis.The resultant data revealed the expression of β2M (Housekeeping gene), AFP, Alb, CK18 in all groups and low expression of CK19 in the BMSCs with the α-MEM medium and in the liver tissue, while the expression of CK19 was not detected in other groups.


Discussion

The aim of the present study was to investigate the expression of some specific liver genes in MSCs without application of any inducers or coculture system.Three different mediums were used to identify the best culture medium for he occurrence of some functional markers of liver.

In addition to the regenerative role of liver cells, there is cooperation between liver stem cells and BMSCs (Extra hepatic stem cells).The MSCs play a major role in both inflammation and remodeling of tissues.Following a liver injury, cells from the bone marrow are released into the circulation, migrate to the liver and differentiate into hepatocytes (3,17,18).The HSCs and MSCs are the most important candidates and possess the unique capacity for liver regeneration.The BMSCs contributes to the regeneration of parenchymal and non-parenchymal liver (hepatic) cells and are capable of being differentiated into hepatocytes (2).This research has demonstrated that the MSCs can be developed into hepatocytes following in vivo transplantation (19).However, under in vitro conditions, these cells may differentiate to functional hepatocytes in the presence of growth factors such as the hepatocyte growth factor (HGF) and FGF-4 (20)(21)(22).These functional hepatocytes under in vit o conditions also ).Gene expression density of CK18 showed that, there were significant differences between MSCs cultured in α-MEM and the DMEM & hepatocyte, so between MSCs cultured RPMI medium and hepatocyte (P≤0.05)possess functional characteristics of hepatocytes, such as secreting urea and albumin, taking up LDL and storing glycogen (23).Finally, the differentiation of MSCs into particular cell lineages under appropriate culture conditions makes these cells being capable in the treatment of many diseases (19).

In this research, apart from the study undertaken on the characteristics of the MSCs in three culture mediums, the proliferation ability, the expression of hepatocyte specific genes and the function of these cells were compared with hepatocytes culture.The MSCs in the α-MEM medium indicated a high viability and replication apability in a way that after 6 to 7 days culture reached 80-90% confluence.Doubling times and the growth curve could represent differences of growth and proliferation (replication) in three mediums considered.The growth speed of hepatocytes was much slower than that of MSCs and so that they maintained the proliferation capacity no longer to 4 th passage.

To identify mesenchymal cells, the immunocytochemical testing was performed using specific markers CD71 and CD90.The immunocytochemical identification of cultured MSCs in three mediums for cell surface antigen markers CD71 (24-26) and CD90 (14,24,(27)(28)(29) showed that these cells represented a similar and positive reaction to markers.

The analysis of the liver genes expression in the MSCs, hepatocytes and liver tissue at the mRNA level showed that AFP, Alb and CK18 have expressed in all groups.Additionally, CK19 had a low expression in liver tissue and the MSCs in α-MEM, and not detected in other groups.Since the hepatocytes are the main cell types resident in the liver, RT-PCR results at mRNA level showed that Alb (typical marker of mature hepatocytes) and CK18 (marker of hepatocytes and bile duct cells) expressed at high levels.In addition, AFP ppeared to be expressed on average and also CK19 (marker of bile duct cells) expressed at very low levels in liver tissue.Useful stem cell-derived hepatocytes need to express not only the genes found in mature liver cells, but also the level of the expression need to be at or near those found in the normal liver (30).

The MSCs were co-cultured on normal or CCL4injured liver tissue.After 10 days of co-cultures of the MSCs with either normal or injured liver tissues, the RT-PCR analysis of hepatocyte-like phenotypes revealed the expression of both the AFP and albumin (31).Wang et al (2004) demonstrated that after 4 days of cultures in the presence of growth factors such as HGF, EGF, aFGF and bFGF, the BMSCs showed a remarkable transition from the fibroblastlike morphology to round and epithelial cells.The RT-PCR analysis showed that before differentiation, mesenchymal cells expressed CK18 and differentiated cells exhibited significantly higher levels of expression of albumin and CK18 (32).

Our results showed that the MSCs cultured in the α-MEM medium had the same gene expression profile which was similar to the adult liver.In contrast, the gene expression profiles of liver genes in the MSCs cultured in the RPMI and DMEM mediums were similar to the gene expression profiles of hepatocytes.High expression levels of specific hepatocytes genes such as Alb and CK18 and lack of CK19 expression demonstrated that the two mediums of RPMI and DMEM had the potential to support or induce the MSCs into a hepatocyte-like cell.

The kind and rate of expression of liver specific genes during liver development can be used to evaluate the differentiation capacity of stem cells for transplantation (33).In this study, the comparison of a semi quantitative expression of the genes in different cell culture conditions revealed the differentiation capacity of these cells.Various studies reported the expression of hepatocytic markers (Alb, Ck8 and CK18), bile duct markers (CK-7, CK-19 OV-6 and A6), hepatoblast marker (AFP) and hematopoietic stem cell (HSC) genes (such as Thy-1, Sca-1 and c -kit) in oval cells (3,(34)(35)(36).In summary, the results of the present study show that the MSCs have the capability of expressing liver and hepatocytes specific genes in culture.Nevertheless, the liver is responsible for a variety of biochemical functions, including the metabolism of amino acids, lipids and carbohydrates, the detoxification of xenobiotics and glyconeogenesis, the synthesis of cholesterol, bile and phospholipids.In additions liver function includes the synthesis of serum proteins such as albumin, fibrinogen, α-globulin and β-globulin and coagulation factors (37).The evaluation of albumin in cultur

supernatant
of MSCs reveals that there is no significant difference between MSCs and hepatocytes.The assessment of urea concentrations in experimental groups shows that there is significantly difference between hepatocytes and MSCs in the DMEM medium despite the fact that there is no significant difference between hepatocytes and MSCs in other two mediums.The amount of urea in cultured hepatocytes was lower than the other experimental groups, despite the fact that this ac